EC:3.1.6.1 - FACTA Search

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Query: EC:3.1.6.1 (sulfatase)
3,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Iduronate 2-sulfatase (IDS, EC 3.1.6.13) is required for the lysosomal degradation of heparan sulfate and dermatan sulfate. Mutations causing IDS deficiency in humans result in the lysosomal storage of these glycosaminoglycans and Hunter syndrome, an X chromosome-linked disease. We have isolated and sequenced a 2.3-kilobase cDNA clone coding for the entire sequence of human IDS. Analysis of the deduced 550-amino acid IDS precursor sequence indicates that IDS has a 25-amino acid amino-terminal signal sequence, followed by 8 amino acids that are removed from the proprotein. An internal proteolytic cleavage occurs to produce the mature IDS present in human liver shown to contain a 42-kDa polypeptide N-terminal to a 14-kDa polypeptide. The IDS sequence has strong sequence homology with other sulfatases (such as sea urchin arylsulfatase, human arylsulfatases A, B, and C, and human glucosamine 6-sulfatase), suggesting that the sulfatases comprise an evolutionarily related family of genes that arose by gene duplication and divergent evolution. The arylsulfatases have a greater homology with each other than with the non-arylsulfatases (IDS and glucosamine 6-sulfatase). The IDS cDNA detected RNA species of 5.7, 5.4, 2.1, and 1.4 kilobases in human placental RNA and revealed structural alterations and gross deletions of the IDS gene in many of the clinically severe Hunter syndrome patients studied.
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PMID:Hunter syndrome: isolation of an iduronate-2-sulfatase cDNA clone and analysis of patient DNA. 212 63

A 2.2-kilobase cDNA clone for human arylsulfatase B (ASB) and several genomic clones were isolated and sequenced. The deduced amino acid sequence of 533 amino acids contains a 41-amino acid N-terminal signal peptide and a mature polypeptide of 492 amino acid residues. Overexpression of ASB in transfected baby hamster kidney (BHK) cells resulted in up to 68-fold higher ASB activity than in untransfected BHK cells. Pulse-chase labeling showed that ASB was synthesized and secreted as a 64-kDa precursor and processed to a 47-kDa mature form in BHK cells. The 47-kDa ASB form was located in dense lysosomes. Transport of ASB to the lysosomes was accomplished in a mannose 6-phosphate receptor-dependent manner. The ASB cDNA clone hybridizes to 4.8-, 2.5-, and 1.8-kilobase species of RNA from human fibroblasts. The same pattern was observed in RNA from fibroblasts of three Maroteaux-Lamy patients who were deficient in ASB activity, as well as in RNA from fibroblasts of three patients with multiple sulfatase deficiency, in which all known sulfatases were markedly diminished. Deduced amino acid sequences of human arylsulfatase A, human ASB, human steroid sulfatase, human glucosamine-6-sulfatase, and an arylsulfatase from sea urchin showed a substantial degree of similarity suggesting that they arose from a common ancestral gene and are members of an arylsulfatase gene family.
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PMID:Phylogenetic conservation of arylsulfatases. cDNA cloning and expression of human arylsulfatase B. 230 52

The N-terminus of the recently isolated sterylsulfatase of human placental cellular membranes was sequenced. According to our results, the enzyme preparation proved to be homogeneous at least with respect to this part of the polypeptide chain; the n-terminal sequence of the sulfatase previously proposed by others, however, had to be revised partially.
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PMID:The N-terminal amino-acid sequence of human placental sterylsulfatase. 259 Apr 67

Arylsulfatases are a group of enzymes that remove sulfate moieties from a diverse set of substrates including glycoproteins, steroids, and cerebrosides. We have isolated recombinant cDNA clones corresponding to an arylsulfatase (SpARS) message that encodes an abundant protein of pluteus larvae of the sea urchin Strongylocentrotus purpuratus. Although vertebrate arylsulfatases have broad tissue distributions, in situ hybridization with a probe for SpARS shows that the sea urchin message accumulates in the embryo only in the single cell type of aboral ectoderm and its precursors. The message is first detectable by RNase protection assays around hatching blastula stage and accumulates through pluteus larva stage. The open reading frame of cDNA clones is 1701 nt long and encodes a deduced protein with a predicted molecular mass of 61 kDa. Analysis of corresponding genomic DNA clones reveals that the pre-mRNA contains six exons. Consistent with the fact that arylsulfatase enzyme activity is extracellular, this polypeptide has a hydrophobic leader sequence and three potential glycosylation sites. Furthermore, hybridization in situ shows that in blastulae arylsulfatase message is preferentially concentrated around nuclei at the basal sides of cells. The S. purpuratus sequence is very similar to that recently reported for the same enzyme from Hemicentrotus pulcherrimus and 30% of the amino acid residues are also identical to those of both human arylsulfatase C (steroid sulfatase) and arylsulfatase A. Sequence relationships among these four mRNAs suggest that, assuming equal rates of evolution, the duplication separating the human genes occurred at about the time of separation of the echinoderm and vertebrate lineages.
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PMID:Structure and tissue-specific developmental expression of a sea urchin arylsulfatase gene. 276 35

Fish arylsulfatases (arylsulfate sulfohydrolase; EC 3.1.6.1) were resolved into cationic arylsulfatase A-like (ARSA) and anionic arylsulfatase B-like (ARSB) fractions by DEAE-Sephacel chromatography. Green sunfish (GSF) hepatic ARSA was more acidic and more thermostable than bluegill (BG) ARSA. GSF x BG interspecific hybrids preferentially expressed GSF ARSA, while BG x GSF hybrids appeared to produce a dimeric enzyme consisting of both GSF and BG ARSA polypeptides. GSF hepatic beta-glucuronidase (GUS) also proved to be more thermostable than BG GUS. Thermostabilities of GUS produced by reciprocal interspecific hybrids were very similar to that of GSF GUS. Either GSF GUS is preferentially expressed in both interspecific hybrids or both the GSF and BG GUS polypeptides are synthesized in comparable amounts, and the GSF GUS polypeptide sufficiently stabilizes the heterotetramers produced by the hybrids to produce denaturation profiles closely approximating that of the GSF enzyme.
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PMID:Arylsulfatase and beta-glucuronidase expression in green sunfish, bluegill, and their reciprocal interspecific hybrids. 277 68

Fibroblasts from patients with multiple sulfatase deficiency were analyzed for activities of arylsulfatase A and B, iduronate 2-sulfatase and sulfamatase. A group of patients (group I) severely deficient in all sulfatases (residual activities less than or equal to 10% of control) were differentiated from patients (group II) with residual sulfatase activities of up to 90% of control. The synthesis and stability of arylsulfatase A and B were determined in pulse-chase labelling experiments. The apparent rate of synthesis of arylsulfatase A and B varied from 30% to normal in both fibroblasts from group I and II multiple sulfatase deficiency. In group I the molecular activity of the arylsulfatase A and B was more than 10-fold lower than in control fibroblasts. In group II the molecular activity of the arylsulfatase A was twofold to threefold lower and that of arylsulfatase B half of normal. In fibroblasts of both groups the stability of arylsulfatase A polypeptides was significantly diminished. For arylsulfatase B the instability was restricted to the mature 47000-Mr polypeptide and was variable within both groups. These results demonstrate that multiple sulfatase deficiency is a heterogeneous disorder, in which the primary defects can impair both the catalytic properties and the stability of sulfatases.
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PMID:Synthesis and stability of arylsulfatase A and B in fibroblasts from multiple sulfatase deficiency. 286 38

Multiple sulfatase deficiency can be classified into group I with severe and group II with moderate deficiencies in sulfatases. In fibroblasts in both groups the stability of arylsulfatase A and of the 47000-Mr form of arylsulfatase B is decreased [F. Steckel, A. Hasilik & K. von Figura (1985) Eur. J. Biochem. 151, 141-145]. After endocytosis in control fibroblasts or those from multiple sulfatase deficiency, arylsulfatase A and B derived from the latter were subjected to enhanced degradation in both types of recipient cells. The degradation was closely linked in time to endocytosis. Whereas instability of arylsulfatase A derived from different cell lines from multiple sulfatase deficiency was comparable, a marked heterogeneity was observed for the instability of the 47000-Mr polypeptide of arylsulfatase B. Each of the cell lines from multiple sulfatase deficiency synthesized arylsulfatase A and B polypeptides with normal and with decreased stability. Treatment with benzyloxycarbonyl-Phe-Ala-CHN2, an inhibitor of cysteine proteinases, stabilized arylsulfatase A polypeptides and partially restored arylsulfatase A activity in group II fibroblasts. The inhibitor had no protective effect on the 47000-Mr polypeptide or the activity of arylsulfatase B. The bearing of these findings on the yet unknown primary defect in multiple sulfatase deficiency is discussed.
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PMID:Multiple sulfatase deficiency: degradation of arylsulfatase A and B after endocytosis in fibroblasts. 286 39

Arylsulfatase A (arylsulfate sulfohydrolase, EC 3.1.6.1), a mammalian lysosomal enzyme, is initially synthesized as a 69, 67 and 64 kDa precursor polypeptide in a prostate carcinoma cell line PC-3SF12, in HeLa cells and in a normal human embryonic lung cell line WI-38, respectively. These precursor polypeptides are secreted into the medium or processed to mature enzymes of apparent molecular mass 66, 64 or 62 kDa in PC-3SF12, HeLa or WI-38 cells, respectively. The precursor and mature polypeptides in WI-38 cells are phosphorylated, and the phosphate is lost upon treatment with endo-beta-hexosaminidase H. Arylsulfatase A is also shown to be sulfated in WI-38 cells. The presence of castanospermine, an inhibitor of sulfation of the second N-acetylglucosamine residue of the chitobiose core, does not reduce the extent of sulfation of arylsulfatase A, suggesting that either terminal sugars or the protein is sulfated. Sulfation may have a protective function similar to that of terminal sialic acid residues in glycoproteins. Although the subcellular location of arylsulfatase A is identical in PC-3SF12 and in WI-38 cells, pulse-chase experiments indicate that arylsulfatase A protein has a slower turnover in the prostate carcinoma cell line than it does in the normal human lung cell line. The differences in the apparent molecular weights of arylsulfatase A in the normal and carcinoma cell lines are shown to be due to variations in the carbohydrate content of the enzyme. The apparent molecular mass of the polypeptide chain obtained after endo-beta-hexosaminidase H treatment is 59 kDa, a value which is identical for all three cell lines studied here. These results suggest the possibility of an enhanced activity of terminal glucosyltransferase enzymes in carcinoma cell lines and in tumor tissues. Arylsulfatase A may be a useful marker for studying transformation-related processes in human cell lines.
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PMID:Phosphorylation and sulfation of arylsulfatase A accompanies biosynthesis of the enzyme in normal and carcinoma cell lines. 286 59

Cathepsin D, arylsulfatase A and the alpha-chain of beta-hexosaminidase are synthesized in human fibroblasts as sulfated polypeptides. The sulfate is added posttranslationally. Its half-life is less than one-tenth of that of the respective polypeptide chains. The sulfate residues were found on asparagine-linked oligosaccharides sensitive to endoglycosidase F and peptide: N-glycosidase F and resistant to endoglycosidase H. Inhibition of formation of complex type oligosaccharides by 1-deoxy-manno-nojirimycin prevented sulfation, indicating that the sulfate residues were added to complex type oligosaccharides.
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PMID:Sulfated oligosaccharides in human lysosomal enzymes. 288 42

Antibodies raised against steroid sulfatase purified from human placenta were used to follow the biosynthesis of this enzyme in human skin fibroblasts. Steroid sulfatase is synthesized as a membrane-bound Mr-63 500 polypeptide with asparagine-linked oligosaccharide chains. Within 2 days, newly synthesized steroid sulfatase is processed to a mature Mr-61 000 form. The decrease in size is due to processing of the oligosaccharide chains, which are cleavable by endoglucosaminidase H in both the early and the mature form of steroid sulfatase. The processing involves mannosidase(s) sensitive to 1-deoxy-manno-nojirimycin. The half-life of the steroid sulfatase polypeptides is 4 days. Synthesis of steroid-sulfatase-related polypeptides and steroid sulfatase activity were not detectable in fibroblasts from four patients with X-linked ichthyosis.
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PMID:Steroid sulfatase. Biosynthesis and processing in normal and mutant fibroblasts. 294

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